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https://github.com/ClickHouse/ClickHouse.git
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9963e2f160
* Changing size() return type from UInt32 to UInt64 to prevent overflow (this shouldn't break back compatibility). * Removing "big cardinalities fix" for cardinalities >2^32/30 as it was very inaccurate and for estimates >2^32 it was trying to do 'log' of negative number which is NaN and it was casted to 0. * Adding python script to show that intHash32 is not a good choice for HyperLogLog algorithm when it's used for linear counting branch of it. * Adding bash script to test uniq, uniqHLL12, uniqCombined on different set cardinalities. * Altering documentation of uniq* aggregate functions with recommendations to use uniq instead of uniqHLL12 or uniqCombined.
57 lines
1.5 KiB
Python
Executable File
57 lines
1.5 KiB
Python
Executable File
#!/usr/bin/python3
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import sys
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import math
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import statistics as stat
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start = int(sys.argv[1])
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end = int(sys.argv[2])
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#Copied from dbms/src/Common/HashTable/Hash.h
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def intHash32(key, salt = 0):
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key ^= salt;
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key = (~key) + (key << 18);
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key = key ^ ((key >> 31) | (key << 33));
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key = key * 21;
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key = key ^ ((key >> 11) | (key << 53));
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key = key + (key << 6);
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key = key ^ ((key >> 22) | (key << 42));
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return key & 0xffffffff
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#Number of buckets for precision p = 12, m = 2^p
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m = 4096
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n = start
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c = 0
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m1 = {}
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m2 = {}
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l1 = []
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l2 = []
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while n <= end:
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c += 1
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h = intHash32(n)
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#Extract left most 12 bits
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x1 = (h >> 20) & 0xfff
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m1[x1] = 1
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z1 = m - len(m1)
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#Linear counting formula
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u1 = int(m * math.log(float(m) / float(z1)))
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e1 = abs(100*float(u1 - c)/float(c))
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l1.append(e1)
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print("%d %d %d %f" % (n, c, u1, e1))
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#Extract right most 12 bits
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x2 = h & 0xfff
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m2[x2] = 1
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z2 = m - len(m2)
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u2 = int(m * math.log(float(m) / float(z2)))
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e2 = abs(100*float(u2 - c)/float(c))
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l2.append(e2)
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print("%d %d %d %f" % (n, c, u2, e2))
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n += 1
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print("Left 12 bits error: min=%f max=%f avg=%f median=%f median_low=%f median_high=%f" % (min(l1), max(l1), stat.mean(l1), stat.median(l1), stat.median_low(l1), stat.median_high(l1)))
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print("Right 12 bits error: min=%f max=%f avg=%f median=%f median_low=%f median_high=%f" % (min(l2), max(l2), stat.mean(l2), stat.median(l2), stat.median_low(l2), stat.median_high(l2)))
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